Quantum memory in warm rubidium vapor with buffer gas

Details Quantum memory in warm rubidium vapor with buffer gas Quantum memory in warm rubidium vapor with buffer gas

2011-12-02

arxiv.org/abs/1112.0456v1

Physics

Quantum Physics

3 pages. Accepted to Optics Letters

Scientific paper

The realization of quantum memory using warm atomic vapor cells is appealing because of their commercial availability and the perceived reduction in experimental complexity. In spite of the ambiguous results reported in the literature, we demonstrate that quantum memory can be implemented in a single cell with buffer gas using the geometry where the write and read beams are nearly co-propagating. The emitted Stokes and anti-Stokes photons display cross-correlation values greater than 2, characteristic of quantum states, for delay times up to 4 microseconds.

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